Robotics and the Future of Aerospace Product and Parts Manufacturing

Overview:

The future of aerospace products and parts manufacturing is being shaped by innovations in robotics. Revolutionary advancements in technology are contributing to increases in efficiency, productivity, and safety, driving impressive statistics that underscore the significant potential of combining robotics and aerospace manufacturing. Facts such as 60% estimated increase in productivity in aerospace manufacturing due to robotics, the 84% of global industrial robots that are utilized in the aerospace industry and how 98% of tasks related to aircraft assembly have the potential to be automated, further highlight the expansive impact and growth opportunities within this emerging field.

Robotics and Aerospace Manufacturing:

The introduction of robotics in aerospace manufacturing is already transforming the industry. It is estimated that robotics can increase productivity in the aerospace sector by 60%. Robots are utilized in diverse applications such as drilling holes in aircraft components, installing fasteners, spray painting aircraft bodies, and handling raw materials or parts. The result is not only an increase in efficiency but higher precision and improved quality.

Global Impact of Industrial Robots:

Global trends indicate that about 84% of industrial robots are used in aerospace manufacturing. This significant percentage suggests a seismic shift in the industry, with manufacturers placing their bets on robotics for a more productive and efficient future. Embracing this technology is strategic, enabling companies to stay competitive in the global market while being primed for the latest advancements in manufacturing and automation.

Automation Opportunities in Aircraft Assembly:

Research suggests that up to 98% of tasks related to aircraft assembly could be automated. Robots, particularly collaborative robots or 'cobots', are being increasingly used to execute tasks that are either too dangerous or repetitive for human labor. This level of automation would not only drive increased efficiency and cost savings but also significantly improve worker safety.

Key Takeaways:

• Robotics are set to transform aerospace manufacturing through increased productivity, quality, and efficiency.
• A shift in global trends with 84% of industrial robots being utilized in the aerospace sector signifies the industry's future direction.
• There are significant automation opportunities within aircraft assembly, with potential to automate up to 98% of tasks, improving efficiency, safety, and cost savings.

3Laws Robotics is revolutionizing robotics, with a focus on creating software that enhances safety and reliability for robotic systems. They address one of the significant challenges in the industry: certification. 3Laws Robotics makes the certification process simpler with its software, 3Laws Supervisor, that offers robust safety features and evidence of system robustness.

3Laws' technology has a wide range of applications. It has enabled a customer operating autonomous forklifts in a warehouse to achieve a stunning 40% efficiency gain, returning their investment in just six months. Moreover, it ensures safe and uninterrupted operation of robots near humans - a vital factor when considering the growing need for collaborative robotics solutions. Its reactive collision avoidance capabilities mean robots can operate effectively in unpredictable environments.

Their software is designed to minimize downtime caused by unnecessary e-stops or collisions, thereby enhancing operational efficiency. Real-time guardrails for autonomy stacks mean robots can operate closer to their peak potential while maintaining safety. Compatible with popular robotics middleware such as ROS and ROS2, 3Laws software works with a wide range of platforms, including mobile robots, cars, drones, and manipulators.

Representing the next generation of safety solutions, 3Laws goes beyond e-stop methods to provide proactive safety that's ready to be safety certified under ISO 3691-4 and ISO 26262. This forward-thinking approach unlocks the vast potential of robotics by providing dynamic, predictive safety.